Step 6: Completed!

I started to title this Instructable "How To Void a Warranty," but decided that I have many ways to void warranties, and this is only one!

I found this old Kenmore electric heater that was probably made in the 1940's or early 1950's in a junk store one day, and $12 later it was mine. These old electric heaters were made before any of today's safety considerations and they can be pretty dangerous, particularly as they age. This heater was made with no on/off switch, no fuse, no thermostat, and no double insulation. Basically to turn it on, you plugged it in, and it would sit there and generate heat, at least until one of its porcelain insulators eventually cracked -- then it could become a metal housing filled with live current, and possibly elecrocute you and/or set your house on fire. Not a good way to begin a cold morning......

My wife and I thought this would look nice in our bathroom, so I decided I would replace the insde parts with the insides from a new ceramic heater. Then we could have the vintage look with modern safety features.

Step 1: Disassembly

It was easy to get to the internals of this heater. All I had to do was remove four screws near the base and one on the upper rear of the heater and the base came off with the insides attached. The heat coils were attached to the base with four rivets. Since I would need the base, I drilled out the four rivets, tossed the old unit with the coils and the cord, and kept the base.

With the heater disassembled, I could now take measurements inside the heater's housing to see how much room I would have to fit the insides of a modern ceramic heater.

Step 2: How to void a warranty

I went on the web and began to look for a ceramic heater that would fit within the space of the old Kenmore housing, and I found the one in the first photo. Since its external dimensions would almost fit, I knew that after I removed the parts I didn't need (the plastic front), it would certainly do the job.

Disassembling the new heater was easy -- only four screws held the front to the back. One screw, however, was a "safety screw," designed to keep people like you and I from getting to the insides. Fortunately I had my trusty "custom safety screw removal tool" (see 2nd photo), which worked like a charm. Yes, maybe I've voided warranties before......

I discarded the front of the ceramic heater housing, but decided to keep the back, since all the main components (fan, ceramic elements, etc.) were attached to it (3rd photo), and this would keep me from having to come up with a means to re-mount all the parts. I eventually trimmed the excess plastic at the top of this housing, since it would get in my way in mounting the heater controls.

My initial plan was to remove the two heater controls and mount them on the front of the Kenmore housing near the bottom, but once I saw how the new heater controls were made, I decided against it. These controls were basically formed into one control unit (4th photo), and were not easily removable. Plus, the thermostat was built into one of the controls, and I really needed it to be above the ceramic elements (aligned with a vent that was built into the rear housing of the ceramic heater). So, I decided to mount these at the top of the Kenmore. Knowing I would need longer wires, I carefully marked the four wires that would have to be cut and spliced with the tape tabs shown in the photo, then I cut them.

With the warrantly now completely and totally voided, I proceded on as if I knew what I was doing......

Step 3: Mounting the controls

I measured the opening I would need in the top of the Kenmore housing to recess the controls, and cut the opening with a cut-off disc in a rotary tool (1st photo).

Because the top of the Kenmore is curved and the control unit's plastic mount is flat, I had to mark the curve onto the plastic mount and relieve it using a rotary tool with a sanding drum. Photo 2 shows the curve marked on the plastic, and photo 3 shows the plastic after being relieved for the curve. I also had to add a filler to cover a gap molded in the plastic. I used a piece of scrap steel sheet (photo 3) secured with high heat epoxy. A mounting tab molded into the plastic was also trimmed.

Photo 4 shows the test fit of the controls on the top of the Kenmore. I then added the length of wire I would need to the wires I had cut on the control unit (photo 5), and cut a metal cross piece to secure the control to the housing (photo 6). Photo 7 shows the control unit from the inside of the Kenmore.

By the way, I didn't mention this earlier, but I sanded the outside and inside of the old Kenmore at the beginning, and painted the inside with Krylon high heat spray paint.

Step 4: Preparing the ceramic heater

Before attempting to mount the ceramic heater inside the Kenmore housing, first I measured to see how much extra space I would have at the bottom of the Kenmore when the ceramic heater element was centered in the grill area. I found that the ceramic heater would have to be raised about 3 inches from the base, so I built a platform from some scrap lumber I had laying around, and painted it black just in case it might be visible through the grill of the Kenmore. No heat would reach this area, so there is no risk of fire -- after all, the original housing of the ceramic heater was plastic, so this would be no different than setting the original ceramic heater on a wooden floor.

At the top of this platform I inserted two studs with machine screw posts for attaching what remained of the ceramic heater's housing. The platform with the screw posts is shown in photo 1.

Next I drilled holes in the bottom of the plastic housing and attached the ceramic heater assembly to the platform using washers and nuts (photo 2).

I then attached the platform to the Kenmore's base by drilling four holes and using wood screws. While I was at it, I attached three new rubber non-slip self-stcking pads to the base. The screws and pads are shown in photo 3.

In photo 4 you can see that I cut off about an inch of plastic housing at the top of the ceramic heater assembly. This gave me a little extra clearance at the top for the controls that I relocated to the top of the Kenmore housing in an earlier step. The ceramic heater also had a little pilot light that I relocated to the top, fastening it in place with a nylon zip tie.

Step 5: Final assembly

Next, I painted the Kenmore housing, including the controls mounted at the top. I used Krylon brown hammered finish spray paint.

The final assembly involved inserting the ceramic heater assembly about a third of the way into the Kenmore housing and re-connecting the four wires to the contols that I had marked in an earlier step. Each wire was soldered, then covered with a wire nut, then covered with heat shrink tubing -- sort of an attempt at additional double insulation.

Once each wire was attached, I then gathered all the wires at the side of the ceramic heater assembly and used zip ties to keep them gathered together at the side. I then pushed the ceramic heater assembly fully in place and fastened the base to the Kenmore with the original four screws.

Step 6: Completed!

This was a fun little project, and my wife and I were happy with the results. These old heaters have a nice style, and modern ceramic heaters are efficient and safe. So, this brought what I consider the best of two worlds together.

It is important to mention that if you attempt a similar project, remember to not compromise the ceramic heater's safety systems. Basically what I did with this project was put a modern heater inside an old housing. The only intrusion into the ceramic heater was the removal of the front housing and the relocation of the controls, and I made sure to use wire of the same gauge, same heat resistance, and doubled up on my insulation of the connections.

The cost of this entire project was very reasonable. I spent $12 for the old Kenmore, and bought the ceramic heater for $20 (with free shipping).

This "new" heater is now installed in the bathroom, replacing an old ugly round gray heater. In the end I was glad I had to mount the controls at the top of the heater instead of at the base on the front. Hey, I'm old and it's nice not having to stoop down all the way to the floor to turn it on & off!

<p>I like it! The old stuff looks really cool. I bet the antique case is built a lot better than the original one. Probably some pretty heavy gauge steel.</p>

Yes, the case is built like a tank! Thanks for your comment.

I have the same type of ceramic heater, and when I disassembled mine was puzzled by the actual heating element, eventually finding out that it was probably Barium Titanate - a clever material that automatically regulates its own resistive heat output by having low resistance when cold and more when it warms up. Assuming yours is the same, the tiny thermostat on the fan housing is more like a secondary mechanism.

OK,please explain to me why you would go to all that trouble if you have to get a new heater anyway????????? JUST KEEP THE NEW ONE AND DITCH THE OLD ONE!